Profile element

ABSTRACT

An elongate profile element has a bottom, sidewalls extending from the bottom substantially at right angles and an upper side opposite the bottom. The upper side comprises flanges which extend from the respective sidewalls towards each other and delimit between them a longitudinal slot extending over the length of the profile element. The flanges are bended inwards such that the free end of the flanges is directed towards the bottom and extends in a direction substantially at right angles with the bottom. The bottom is provided with spaced apart oblong recesses, which have longitudinal side edges which are bended inwards such that the free end of said edges extends towards the upper side in a direction substantially at right angles with the bottom.

The present invention relates to a metal elongate profile element having a bottom, sidewalls extending from the bottom substantially at right angles and an upper side opposite the bottom, wherein the upper side comprises flanges which extend from the respective sidewalls towards each other and which delimit between them a longitudinal slot extending over the length of the profile element. The flanges are bended inwards such that the free end of the flanges is directed towards the bottom and extends in a direction substantially at right angles with the bottom.

Such a profile element with inwardly bended flange edges is known for example from U.S. Pat. No. 2,696,139 and in the relevant technical field is often referred to as a “strut rail”.

The present invention proposes to provide an alternative profile element.

This object is achieved by a profile element according to claim 1 or claim 10.

The invention also relates to a fastening system according to claim 9.

The invention furthermore relates to a profile element according to claim 14.

The profile element and the fastening system according to the invention advantageously provide the possibility to use anchoring elements fit for strut rails on both the upper side of the profile element as the bottom of the profile element.

Preferred embodiments are defined by the dependent claims.

The invention will be elucidated in the following description with reference to the drawing, in which:

FIG. 1 shows a view in perspective of a profile element according to the invention,

FIG. 2 shows a cross-sectional view of the profile element of FIG. 1,

FIG. 3 shows a cross sectional view of a fastening system according to the invention,

FIG. 4 shows an alternative embodiment of a profile element according to the invention, and

FIG. 5 shows a cross-sectional view of another possible profile element according to the invention.

In FIG. 1 is shown a profile element 1 which is made of metal, preferably steel. However, the profile element 1 may also be made from another material, even from for example plastics material. The profile element 1 has a bottom 2, two parallel side walls 3, and an upper side 4. The upper side 4 comprises two flanges 5 which generally extend from the respective side walls 3 towards each other. The flanges 5 are bended inwards such that their free end portions 5 a point towards the bottom 2 of the profile element 1. The flanges 5 delimit between them a longitudinal slot 6 with a width Wt.

In the bottom 2 of the profile element 1 is provided a series of oblong recesses 7. The recesses 7 are spaced apart by a bottom portion or connection web 8, which define the front and rear edges of the recesses 7. The recesses 7 furthermore have longitudinal side edges 9 or flanges 9, which are bended inwards such that their free end portions 9 a point towards the upper side 4 of the profile element 1. In the embodiment shown the side edges 9 run parallel to the flanges 5.

It is also possible in a not shown embodiment that the side edges run perpendicular to the flanges 5, thus that the longitudinal direction of the recesses 7 in the bottom extends in the transverse direction of the profile element 1. It is also possible that the recesses 7 in the bottom are arranged alternating with their longitudinal direction aligned with the longitudinal direction of the profile element 1 and with their longitudinal direction transverse, preferably at right angles, with respect to the longitudinal direction of the profile element 1.

In another possible embodiment, which is not shown, the recesses 7 may be alternated with other cutouts, such as round or oblong through holes, through which attachment means such as screws can be passed, for example to attach the profile element to a support structure.

The side edges 9 of the recesses 7 in the bottom 2 essentially have the same cross sectional shape as the flanges 5 at the upper side of the profile element, as is clearly visible in FIG. 2. The recesses 7 between the flanges 9 have a width Wb, which is preferably more or less the same as the width Wt of the longitudinal slot 6.

The connection webs 8 and the side walls 3 are integrally connected and are made out of one piece. The profile element 1 may be made out of a flat steel blank in which the contours of the inturned edges are punched out. The flat blank is bended into the channel-like shape of the profile element 1 as is shown. The edges 9 are folded inwards to form the longitudinal edges of the recesses 7. The profile element 1 may however also be made by bending a steel blank into the profile and then punch the recesses 7 out with the contours of the inturned edges. Next the edges can be folded into their inturned state.

The connection webs 8 in the embodiment shown have a dimension in the longitudinal direction of the profile element 1, which is at least 25% of the width of the recesses 7 between two connection webs 8. In an example the recesses 7 may have a length 80 mm, a width of about 20 mm and the bridging webs 8 may have a dimension of 20 mm seen in the longitudinal direction.

In a possible embodiment (not shown) the side walls 3 of the profile element 1, can be provided with recesses that are the same as the recesses 7 in the bottom 2 which are described in the above, thus with inturned longitudinal edges. The profile element may have such recesses in one or both of the side walls 3. Also an embodiment is conceivable, in which in the bottom the recesses 7 are omitted and only one or two of the side walls 3 have the recesses.

In FIG. 3 is shown the profile element, with a fastening unit 20 mounted thereto in a preassembly state. The fastening unit 20 comprises an oblong anchoring element 21. The anchoring element 21 is preferably made of steel and has an underside 21 b and an upper side 21 a. The anchoring element 21 has a width which is only slightly smaller than the width of the longitudinal slot 6 and the recesses 7 in the profile element 1. The oblong anchoring element 21 has a length which is greater than the width of the longitudinal slot 6 and the recesses 7, such that in use the anchoring element with its longitudinal axis can be aligned with the longitudinal slot 6 or recesses 7 and, with its underside 21 b facing the bottom 2 of the profile element 1 or—when inserted in a recess 7—facing the upper side of the profile element 1, inserted between the flanges 5 or 9 into the profile element 1, after which the anchoring element 21 can be rotated around an axis perpendicular to the upper side 4 and the bottom 2 of the profile element 1.

The fastening unit 20 furthermore comprises a metal washer 22 which in the preassembled state is situated a small distance above the flanges 5 of the profile element 1.

The fastening unit also comprises a support element 23 which is made of plastics material. The support element 23 carries the oblong anchoring element 21 and supports it from on the underside 21 b with a bottom portion 23 a. The support element 23 furthermore has a head portion which is situated above the bottom portion and which is coupled to the washer 22 by means of studs 23 b extending through holes in the washer 22. The head portion is connected to the bottom portion 23 a by means of legs 23 d.

The head portion of the support element 23 furthermore comprises a pair of generally half-ring shaped spring members 23 c which extend from the level of the washer 22 in an inclined fashion downwards as can be seen in FIG. 3. The spring members 23 c engage the upper side of the flanges 5 in the pre-assembly state shown in FIG. 3. The resiliency of the spring members 23 c pulls the bottom portion 23 c with the anchoring member 21 upwardly such that the upper side 21 a of the anchoring member 21 is into engagement with the end portions 5 a of the flanges 5.

A fastening unit 20 can also be mounted at a recess 7 in the bottom 2, or when present in the side walls 3, of the profile element 1. The oblong anchoring element 21 has preferably a length which is smaller than the length of the recess 7. The fastening unit then cooperates with the flanges 9 instead of the flanges 5 as is described in the above.

The anchoring element 21 preferably has a threaded hole (not shown) in it in which a bolt or a threaded rod can be screwed. The washer 22 has a central hole, through which the bolt or rod extends. When the bolt is tensioned or a nut is screwed from above on the threaded rod, the washer 22 is tensioned from the preassembly state into engagement with the upper side of the flanges 5 or 9.

In FIG. 4 is shown an alternative embodiment of a profile element according to the invention. In this embodiment the profile element is indicated with reference numeral 41. The profile element 41 has two sidewalls 43 and has upper flanges 45 and lower flanges 49 which correspond to the flanges 5 as have been described in the above for the profile element 1. The upper flanges 45 delimit an upper longitudinal slot 46, the lower flanges 49 delimit a lower longitudinal slot 47. The side walls 43 are interconnected by a connection web 48. The connection web 48 is connected to the respective side walls 43 in the middle of the height of the side walls 43 as is clearly visible in FIG. 4. The connection web 48 extends preferably over the entire length of the profile element 41, but there may also be a plurality of consecutive webs 48 which are spaced apart in the longitudinal direction of the profile element 41.

Another embodiment is conceivable, which is shown in a cross sectional view in FIG. 5 in which the profile element 51 has upper flanges 55 which are not inturned, but are substantially perpendicular to the side walls 53. The flanges 55 define a longitudinal slot 56 in between them. In the bottom are provided recesses 57 with inturned longitudinal edges or flanges 59, which are corresponding to the recesses 7 with the flanges 9 as described in relation to FIGS. 1 and 2. In this embodiment the upper side of the profile element 51 is suitable for other attachment units than the bottom side of the profile element 51.

It is noted that all the inturned flanges in the above described embodiments of the profile element may be provided with teeth, which inhibits an attachment unit to slide in longitudinal direction when it is fixed to the profile element. 

1. An elongate profile element comprising: a bottom; sidewalls extending from the bottom substantially at right angles; and an upper side opposite the bottom; wherein the upper side comprises flanges that extend from the respective sidewalls towards each other and that delimit between them a longitudinal slot extending over the length of the profile element; wherein the flanges are bended inwards such that a free end of the flanges is directed towards the bottom and extends in a direction substantially at right angles with the bottom; wherein the bottom is provided with spaced apart oblong recesses; and wherein the oblong recesses in the bottom have longitudinal side edges that are bended inwards such that a free end of the edges extends towards the upper side in a direction substantially at right angles with the bottom.
 2. The profile element according to claim 1, wherein the longitudinal slot has a width Wt and wherein the oblong recesses have a width Wb, which corresponds to the width Wt of the slot.
 3. The profile element according to claim 1, wherein the longitudinal direction of the oblong recesses corresponds to the longitudinal direction of the profile element.
 4. The profile element according to claim 3, wherein the free ends of the flanges are in line with the free ends of the longitudinal edges of the oblong recesses.
 5. The profile element according to claim 1, wherein the longitudinal direction of the oblong recesses is at right angles with the longitudinal direction of the profile element.
 6. The profile element according to claim 1, wherein the oblong recesses are alternatingly arranged with their longitudinal direction corresponding to the longitudinal direction of the profile element and with their longitudinal direction at right angles with the longitudinal direction of the profile element.
 7. The profile element according to claim 1, wherein at least one of the sidewalls is provided with oblong recesses that correspond in shape to the oblong recesses in the bottom.
 8. The profile element according to claim 7, in which the oblong recesses in the bottom are omitted.
 9. Fastening system comprising: an elongate profile element according to claim 1; and a fastening unit to be mounted to the profile element, comprising an oblong anchoring element and a support element that is connected to the anchoring element and extends above the upper side of the anchoring element, which support element can be gripped by hand, and wherein the fastening unit furthermore comprises tensioning means connected to the anchoring means; wherein the oblong anchoring element has an upper side and an underside opposite the upper side, and has a width which is only slightly smaller than the width of the longitudinal slot and a length which is greater than the width of the longitudinal slot, such that in use the anchoring body with its longitudinal axis can be aligned with the longitudinal slot and, with its underside facing the bottom of the profile element, inserted between the flanges into the profile element, after which the anchoring element can be rotated so as to engage the flanges with its upper side, wherein the tensioning means in the mounted state clamp the upper side of the anchoring element against the flanges; and wherein the width of the oblong anchoring element is smaller than the width of the oblong recesses in the bottom and/or the sidewall of the profiled element and the length of the oblong anchoring element is greater than the width of the oblong recesses such that in use the anchoring body with its longitudinal axis can be aligned with the longitudinal axis of the oblong recess and, with its underside facing the top side of the profile element or, in case the anchoring element is inserted in a recess in one of the sidewalls, the opposite sidewall, inserted between the longitudinal edges of the oblong recess into the profile element, after which the anchoring element can be rotated so as to engage the longitudinal edges with its upper side, wherein the tensioning means in the mounted state clamp the upper side of the anchoring element against the edges of the oblong recess.
 10. An elongate profile element comprising: two substantially parallel sidewalls, which on an upper end are provided with upper flanges that extend from the respective sidewalls towards each other and that delimit between them an upper longitudinal slot extending over the length of the profile element, and which on a lower end opposite the upper end are provided with lower flanges that extend from the respective sidewalls towards each other and that delimit between them a lower longitudinal slot extending over the length of the profile element; and at least one connecting web, that extends between the sidewalls and is connected thereto wherein the upper and lower flanges are bended inwards such that a free end of the upper flanges is directed towards the lower side and a free end of the lower flanges at the lower end of the sidewalls is directed towards the upper side and the free ends of the upper and lower flanges extend in a direction substantially parallel to the sidewalls.
 11. The profile element according to claim 10, wherein a plurality of connection webs is connected to the lower end of the sidewalls.
 12. The profile element according to claim 11, wherein the connection webs have a dimension in the longitudinal direction of the profile element that is at least 25% of the width of the lower slot between two connection webs.
 13. The profile element according to claim 11, wherein the connection webs and the upper and lower flanges are integrally formed with the sidewalls.
 14. An elongate profile element comprising: a bottom; sidewalls extending from the bottom substantially at right angles; and an upper side opposite the bottom; wherein the upper side comprises flanges that extend from the respective sidewalls towards each other and that delimit between them a longitudinal slot extending over the length of the profile element; wherein the flanges have free ends that are directed towards each other; wherein the bottom is provided with spaced apart oblong recesses; and wherein the oblong recesses in the bottom have longitudinal side edges that are bended inwards such that a free end of the edges extends towards the upper side in a direction substantially at right angles with the bottom. 